SBIR-STTR Award

Self-Complementary AAV2 Factor IX for Hemophilia B
Award last edited on: 12/4/2020

Sponsored Program
STTR
Awarding Agency
NIH : NHLBI
Total Award Amount
$2,999,988
Award Phase
1
Solicitation Topic Code
701
Principal Investigator
Scott McPhee

Company Information

Asklepios Biopharmaceutical Inc (AKA: AskBio~VectorRx Inc)

870 Martin Luther King Jr Boulevard
Chapel Hill, NC 27514
   (919) 968-2727
   info@askbio.com
   www.askbio.com

Research Institution

Rowan University

Phase I

Contract Number: 1RC3HL103396-01
Start Date: 6/1/2010    Completed: 5/31/2013
Phase I year
2010
Phase I Amount
$2,999,988
This proposal is designed to develop a hemophilia B nucleic-acid therapy capable of mediating multi-year expression of Factor IX (FIX) at therapeutic levels from a single administration that is anticipated to cost less than 2 years of traditional repeated administration of recombinant FIX. Our proposal benefits greatly from the findings of a previous independent human clinical trial of gene therapy for hemophilia B using similar adeno- associated virus- (AAV-) serotype-2 vector-based delivery of FIX targeting liver. This trial demonstrated the relative safety of the capsid, or vector shell, in not eliciting symptomatic toxicities at doses higher than proposed herein. The study achieved therapeutic levels (11 - 15%) of circulating FIX protein (even 6% of normal activity converts phenotypically severe to mild bleeding disorders) with the highest tested dose offered promise. However, the effect was transient as an apparent immune response gradually eliminated transduced cells. Importantly, 5- and 25-fold lower doses of AAV2 FIX demonstrated more durable transduction, though without evidence for detectable circulating factor. The apparent inability to attain expression in a therapeutic window without triggering an immune-mediated loss of efficacy has hindered the further development of this previous approach. AskBio's proprietary advances in AAV-mediated gene therapy offer the promise to effectively shift the dose-response relation so that the therapeutic window no longer requires a viral load associated with triggering a CTL response. Specifically, feasibility studies demonstrate improved expression from our incorporation of a novel genomic structure, self-complementary adeno-associated virus (scAAV) in contrast to the traditional single-strand AAV used in previous human clinical trials. These scAAV vectors significantly minimize the vector load required to achieve sustained transgene expression in mice. Using scAAV2 with an optimized FIX codon sequence under a liver-specific promoter (scAAV2-hFIX), we have shown correction of hemophilic mice using 15- to 20-fold lower viral vector doses. Our preliminary preclinical studies demonstrate therapeutic levels of circulating FIX at doses comparable to the lowest investigated clinical doses shown to be well tolerated in the previous clinical trial. This proposal builds upon both extensive preclinical feasibility data as well as previous clinical experience to outline critical preclinical and clinical studies to support the commercialization of this first-in-class approach designed to meet the significant medical needs of Hemophilia B patients. Successful completion of the research aims proposed will support advancement into Phase II/III testing in collaboration with a commercialization partner.

Public Health Relevance:
This proposal intends to advance Asklepios Biopharmaceutical's development of a gene therapy for Hemophilia B. Designed to generate stable long-term production of blood-coagulation factor-IX levels without the need for re-administration, this therapeutic gene replacement offers the potential to durably normalize blood-coagulation in affected individuals. Reduced patient burden, non-compliance, and exposure to blood products are expected to correlate with reductions in morbidity and mortality - as well as a vastly improved quality of life for Hemophilia B patients in the U.S. alone.

Public Health Relevance Statement:
Narrative This proposal intends to advance Asklepios Biopharmaceutical's development of a gene therapy for Hemophilia B. Designed to generate stable long-term production of blood-coagulation factor-IX levels without the need for re-administration, this therapeutic gene replacement offers the potential to durably normalize blood-coagulation in affected individuals. Reduced patient burden, non-compliance, and exposure to blood products are expected to correlate with reductions in morbidity and mortality - as well as a vastly improved quality of life for Hemophilia B patients in the U.S. alone.

Project Terms:
AAV vector; adeno associated virus group; adeno-associated viral vector; adeno-associated virus vector; Adeno-Associated Viruses; Advisory Committees; Affect; Animal Model; Animal Models and Related Studies; Animals; antihemophilic factor B; Autoprothrombin II; base; Biodistribution; Biologic Products; Biological; Biological Agent; Biological Models; Biological Products; biopharmaceutical; biotherapeutic agent; Bleeding; Blood Clotting; Blood coagulation; Blood Coagulation Factor IX; blood loss; blood product; body system, hepatic; Budgets; Capsid; Catheters; cell transduction; cellular transduction; cGMP; Christmas Disease; Christmas Factor; Clinical; clinical investigation; clinical lot; Clinical Research; Clinical Study; Clinical Trials; Clinical Trials, Unspecified; Coagulation Factor IX; coat (nonenveloped virus); Codon; Codon Nucleotides; cohort; Collaborations; commercialization; cost; Cyclic GMP; Data; Dependovirus; design; designing; Development; Disease; disease/disorder; Disorder; Dose; Dose-Limiting; Drugs, Investigational; EC 3.4.21.22; Exhibits; experience; experiment; experimental research; experimental study; Exposure to; Factor IX; Factor IX Complex; Factor IX Deficiency; Factor IX Fraction; Factor VIII Deficiency; Feasibility Studies; gene product; gene replacement; gene therapy; gene therapy clinical trial; Gene Transfer; Gene Transfer Clinical; Gene Transfer Procedure; Gene-Tx; Generations; Genes; Genetic Intervention; genetic therapy; Genomics; Grant; guanosine 3'5' monophosphate; Guanosine Cyclic 3',5'-Monophosphate; Guanosine Cyclic Monophosphate; Guanosine, cyclic 3',5'-(hydrogen phosphate); Hemophilia; Hemophilia A; Hemophilia As; Hemophilia B; Hemorrhage; Hepatic; host response; Human; Human, General; Immune; Immune response; Immunity; Immunology; Immunology (Including BRMP); Immunology (NCI Program); immunoresponse; improved; Individual; insight; institutional biosafety committee; interest; Intervention, Genetic; Investigational Drugs; Investigational New Drug Application; Investigational New Drugs; Label; Liver; Mammals, Mice; Man (Taxonomy); Man, Modern; Measures; Mediating; Medical; meetings; Mice; model organism; Model System; Models, Biologic; Molecular Biology, Gene Therapy; Molecular Biology, Recombinant DNA; Monitor; Morbidity; Morbidity - disease rate; Mortality; Mortality Vital Statistics; Murine; Mus; National Institutes of Health; National Institutes of Health (U.S.); new therapeutics; next generation therapeutics; NIH; non-compliance; non-human primate; nonhuman primate; novel; novel therapeutics; Nucleic Acids; organ system, hepatic; Outcome; Patients; Phase; Phase I/II Trial; Physiologic; Physiological; Plasma Thromboplastin Component; Position; Positioning Attribute; pre-clinical; preclinical; preclinical study; Procedures; Production; Program Development; programs; Programs (PT); Programs [Publication Type]; Promoter; Promoters (Genetics); Promotor; Promotor (Genetics); Proteins; Protocol; Protocols documentation; PTC; public health relevance; QOL; Quality of life; rDNA; Recombinant DNA; Recombinants; Regulatory Affairs; Relative; Relative (related person); Research; research study; response; Safety; SCHED; Schedule; Secure; Serotyping; Structure; success; Task Forces; Technology; Testing; Therapeutic; therapeutic gene; Therapy, DNA; thromboplastinogen B; Time; Toxic effect; Toxicities; transduced cells; transfer of a gene; transgene expression; Transgenes; United States National Institutes of Health; vector; vector genome; Viral Burden; Viral Load; Viral Load result; Viral Vector

Phase II

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